3D-TLM, absorbing boundary conditions, absorbing walls, circuit response, circuit structures, coupled coplanar waveguide, CPW, discrete Green's functions, fast Fourier transform, frequency characteristics, high-Ttextlesssubtextgreaterctextless/subtextgreater superconducting material, high-Tc superconducting material, high-temperature superconductors, inductive stubs, London theory, matrix algebra, resistive stubs, single-pulse excitation, strip lines, superconducting microwave devices, surface impedance, symmetrical condensed TLM node, three-dimensional transmission-line matrix, time domain, two-fluid model, waveguide theory, zero-padding
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3D-TLM, absorbing boundary conditions, absorbing walls, circuit response, circuit structures, coupled coplanar waveguide, CPW, discrete Green's functions, fast Fourier transform, frequency characteristics, high-Ttextlesssubtextgreaterctextless/subtextgreater superconducting material, high-Tc superconducting material, high-temperature superconductors, inductive stubs, London theory, matrix algebra, resistive stubs, single-pulse excitation, strip lines, superconducting microwave devices, surface i...
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